Abstract: An intraocular lens having an optic and a plurality of fixation members coupled to the optic. The fixation members are adapted to flex about points located closer to the outer edge of the IOL than to the optic. The fixation members may have a converging width intermediate region projecting outward from the optic and a pair of leg portions extending generally perpendicularly thereto. The leg portions include foot members and flex radially inward with respect to the intermediate region. Because the optic and intermediate regions are relatively stable, the leg portions flex inward but the optic does not vault or bow upon a compressive fit within the surrounding eye.

Abstract: An intraocular lens (IOL) for insertion in a capsular bag of an eye includes an optic for focusing light and a movement assembly coupled to the optic. The movement assembly is adapted to cooperate with the capsular bag to effect accommodating movement of the optic. The movement assembly includes one or more elongated fixation members coupled to a periphery of the optic and adapted to convert radial movement of the capsular bag to axial movement of the optic. The fixation members extend spirally at least half-way around the optic. Angled transition sections may be provided between each fixation member and the optic periphery. The anterior and posterior edges of the optic periphery may have relatively sharp angles to reduce epithelial cell growth.

Abstract: An open chamber, accommodative, intraocular lens system operable to be positioned within the interior of an evacuated capsular bag of a human eye. The present invention provides new haptic cross-sections, novel complex lens structures by introduction of the concept of a lens ledge, fixation of haptics to lenses at a lens ledge, structural solutions to provide customized fitted correction, and accordion structural solutions to ease the insertion of complex lenses into the capsular bag of the eye.

Abstract: An intraocular lens includes an optic for focusing light and a movement assembly coupled to the optic. The movement assembly is adapted to cooperate with the eye to effect accommodating movement of the optic. The movement assembly includes a plurality of movement members each with a proximal region coupled to the optic and an enlarged distal region. The enlarged distal region may be integral with the proximal region, or may be mechanically coupled thereto.

Abstract: A refractive intraocular lens including an optic portion having an outer peripheral edge and two or more but preferably two, three or four equally spaced haptic elements. Each haptic element is of like fluidly varying trapezoidal form to achieve a “propeller-like” appearance. Each haptic element is also manufactured to have an inner portion with a gusset and an outer portion with a contact button for supporting the optic portion in a patient's eye. The inner portion of each haptic element is permanently connected to the outer peripheral edge of the optic portion. Each haptic is formed to have a relatively low profile and a greater resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is so designed to exhibit less than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.

Abstract: An intraocular lens having an optic and a plurality of fixation members coupled to the optic. The fixation members are adapted to be evenly circumferentially distributed about the anterior chamber to reduce the phenomenon of malshaping the iris, for example, pupil ovalling.

Abstract: An intraocular lens having an ultrathin and highly pliable optic and relatively more rigid fixation members extending outward therefrom. The optic desirably includes a flange to which a common arm of a pair of joined fixation members attaches. The fixation members extend on opposite sides of the optic in U-shaped flex portions spanning a distance larger than the diameter of the optic. The fixation members may be flexed inward so as to overlap within the diameter of the optic and define an insertion profile of less than about 5 mm. For anterior implantation, four relatively evenly circumferentially spaced pods are provided by the pair of fixation members. The optic center desirably has a thickness of less than about 0.5 mm for meniscus type optics, and may be made of silicone, hydrophilic acrylic, or hydrophobic acrylic. The fixation members have a thickness of about 0.25 mm and are desirably made of poly methyl methacrylate (PMMA) or polyether sulfone.

Abstract: A crossed haptics attached to an intraocular lens suitable for implantation in either a phakic or an aphakic eye and a method for implanting and releasing the haptics after implantation in the eye, wherein. The lens comprises a very thin, deformable optic having two pairs of haptics attached to the optic by means of two stems 180° apart on the circumference of the optic, the stems being wider and thinner at the base attached to the periphery of the optic, and tapering to a narrower and thicker tip to which each haptic is connected at opposite edges of the stem. Each haptic optionally sweeps about the periphery of the optic so that the angle subtended by a radial line extending from the center of the optic through the center of a footplate and a second radial line extending from the center of the optic through the center of the stem to which it attaches is about 135°. Also disclosed is a haptic design comprising four footplates which are all independently attached to an optic transition area.

Abstract: An intraocular lens having an optic portion and a plurality of fixation members coupled thereto. The optic portion includes an optic and a pair of outwardly extending flanges. The fixation members are relatively more rigid than the optic and attach to the flanges. The flanges provide lines of force transmission between pairs of fixation members so that compressive forces are not transmitted through the optic, therefore reducing vaulting. The fixation members may be bonded or mated to the flanges. A bridge between two opposed fixation members may be provided to form a fixation system, the bridges being attached to the flanges.

Abstract: An intraocular lens including an optic portion having an outer peripheral edge and two, three or four balanced looped haptic elements for use to achieve refractive correction. Each looped haptic is formed to have greater resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is designed with specific flexibility characteristics so as to exhibit less than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.0 mm in diameter compression of the intraocular lens.

Abstract: An intraocular lens including an optic portion having an outer peripheral edge and two, three or four balanced looped haptic elements for use to achieve refractive correction. Each looped haptic is formed to have greater resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is designed with specific flexibility characteristics so as to exhibit less than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.0 mm in diameter compression of the intraocular lens.

Abstract: An accommodating intraocular lens to be implanted within the natural capsular bag of a human eye from which the natural lens matrix has been removed through an anterior capsule opening in the bag circumferentially surrounded by an anterior capsular remnant. During a postoperative healing period following surgery, the anterior capsular remnant fuses to the posterior capsule of the bag by fibrosis about haptics on the implanted lens while the ciliary muscle is maintained in its relaxed state by a cycloplegic to prevent dislocation of the lens, and the lens is deflected rearwardly by the fibrosing anterior capsular remnant to a distant vision position against the elastic posterior capsule of the bag in which the posterior capsule is stretched rearwardly.

Abstract: Artificial eye lenses which are to be replaced against the muddy natural lenses during a cataract operation, obtain a more efficient and sensitive accommodation with a quick and sufficient pull back power, if the centralizing spring haptics show a z-similar shape with a large square stone bridge.

Abstract: The device comprises a prosthesis designed as a hollow body compressed against the action of restoring spring forces to a cross section reduced relative to an expanded use position, and held in this position by a strippable sheath. After the sheath is stripped, the prosthesis automatically expands to a cross section corresponding to the use position. The sheath, which can be a meshwork in the approximate form of crocheted material, extends over the entire length of the prosthesis and consists of at least one continuous thread and at least one drawstring. The prosthesis, held in the radially compressed position by the sheath, can be mounted displacebly on a feed wire or non-axially-displacebly on the insertion end of a probe or a catheter.

Abstract: Iris fixated intraocular lenses include an optic and at least one fixation member or haptic. The fixation member is joined to the optic and has a distal segment including a through-iris portion adapted to extend through an iris hole, and an anchor portion. The anchor portion has or is adapted to have an anchor structure positioned to be disposed proximate to a side of the iris so as to be a effective in fixating the intraocular lens to the iris. The anchor structure may be formed prior to inserting the intraocular lens in the eye or may be formed after the intraocular lens is inserted in the eye. Methods for inserting such intraocular lenses in the eye are also provided.

Abstract: An intraocular lens having an optic and a plurality of fixation members coupled to the optic. The fixation members are adapted to be evenly circumferentially distributed about the anterior chamber to reduce the phenomenon of malshaping the iris, for example, pupil ovalling.

Abstract: Intraocular lenses include an optic adapted to focus light toward a retina of an eye and a movement assembly coupled to the optic. In one embodiment, the optic has a far vision correction power and the movement assembly is adapted to cooperate with the eye to effect accommodating movement of the optic, preferably upon radial compression by a capsular bag of the eye. The optic preferably vaults anteriorly relative to the movement assembly. The movement assembly preferably circumscribes the optic and includes a member having a proximal end portion coupled to the optic and a distal end portion extending away from the optic and adapted to contact a capsular bag of the eye.

Abstract: The invention provides an anterior chamber implant for treating a phakic eye having an optical part connected to loops. The loops have an arc-shaped profile with a double radius of curvature. The radius of curvature of the proximal portion being greater than that of the distal portion.

Abstract: An intraocular lens including an optic portion having an outer peripheral edge and two, three or four balanced looped haptic elements for use to achieve refractive correction. Each looped haptic is formed to have greater resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is designed with specific flexibility characteristics so as to exhibit less than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.0 mm in diameter compression of the intraocular lens.

Abstract: The present disclosure relates generally to a refractive anterior chamber ocular implant for placement in the anatomic angle of a phakic eye, the implant having an artificial lens or optic with an anterior surface and a posterior surface and having a haptic for engaging and positioning the optic in the anatomic angle, wherein the haptic possesses in an extension pad that extends and tapers in thickness from the haptic in an axial direction. The disclosure is further directed to methods for correcting refractive errors in a patient in need thereof having a phakic eye and an anatomic angle by surgically implanting an angle supported anterior chamber ocular implant having an optic with the desired refractive properties and a haptic having an extension pad that extends and tapers in thickness from the haptic in an axial direction, and anchoring the extension pad into the anatomic angle of the eye.

Abstract: The present disclosure relates generally to a refractive anterior chamber ocular implant for placement in the anatomic angle of a phakic eye, the implant having an artificial lens or optic with an anterior surface and a posterior surface and having a haptic for engaging and positioning the optic in the anatomic angle, wherein the haptic possesses in an extension pad that extends and tapers in thickness from the haptic in an axial direction. The disclosure is further directed to methods for correcting refractive errors in a patient in need thereof having a phakic eye and an anatomic angle by surgically implanting an angle supported anterior chamber ocular implant having an optic with the desired refractive properties and a haptic having an extension pad that extends and tapers in thickness from the haptic in an axial direction, and anchoring the extension pad into the anatomic angle of the eye.

Abstract: An accommodating intraocular lens including an optic portion having an outer peripheral edge and two, three or four balanced haptic elements for use to achieve multifocal refractive correction. Each haptic element is formed to have less resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is designed with specific flexibility characteristics so as to exhibit greater than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.0 mm in diameter compression of the intraocular lens.

Abstract: Artificial eye lenses which are to be replaced against the muddy natural lenses during a cataract operation, obtain a more efficient and sensitive accommodation with a quick and sufficient pull back power, if the centralizing spring haptics show a z-similar shape with a large square stone bridge.

Abstract: A refractive intraocular lens including an optic portion having an outer peripheral edge and two or more but preferably two, three or four balanced haptic elements. Each haptic element is of like form to achieve a “propeller-like” appearance. Each haptic element is also manufactured to have an inner portion and an outer tip for supporting the optic portion in a patient's eye. The inner portion of each haptic element is permanently connected to the outer peripheral edge of the optic portion. Each haptic element also includes a contact plate and a central portion located between the contact plate and the inner portion. Each haptic is formed to have greater resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is so designed to exhibit less than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.

Abstract: A refractive anterior chamber intraocular lens including an optic portion having an outer peripheral edge and two or more but preferably three or four haptic elements. Each haptic element is of like form. Each haptic element is also manufactured to have an inner portion and an outer portion for supporting the optic portion in a patient's eye. The inner portion of each haptic element is preferably permanently connected to the outer peripheral edge of the optic portion. Each haptic element also includes a contact button and a central portion located between the contact button and the inner portion. Each haptic is formed to have greater resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is so designed to exhibit less than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.

Abstract: Intraocular lenses for implanting within the natural capsular bag of the human eye having features on the outer ends or portions of the lenses to fixate the lens within the natural capsular bag following implantation.

Abstract: A deformable intraocular lens having a resilient haptic portion anchored into a deformable lens portion. Preferably, the haptic portion is anchored in a manner to the lens portion to provide a compressive type of connection therebetween. This anchoring configuration is particularly suitable for use with deformable intraocular lenses made of a collagen-based lens material (e.g. “Collamer”).

Abstract: A deformable intraocular lens having a resilient haptic portion anchored into a deformable lens portion. Preferably, the haptic portion is anchored in a manner to the lens portion to provide a compressive type of connection therebetween. This anchoring configuration is particularly suitable for use with deformable intraocular lenses made of a collagen-based lens material (e.g. “Collamer”). A method of anchoring a deformable intraocular lens.

Abstract: A refractive intraocular lens including an optic portion having an outer peripheral edge and three or four balanced haptic elements. Each haptic element is formed to have an inner portion and outer tip for supporting the optic portion in a patient's eye. The inner portion of each haptic element is permanently connected to the outer peripheral edge of the optic portion. Each haptic element also includes a contact plate and a transition portion, which extends between the contact plate and the inner portion. Each haptic is formed to have greater resistance to bending in a plane generally parallel to an eye's optical axis than in a plane generally perpendicular to the eye's optical axis. The intraocular lens is so designed to exhibit less than approximately 1.0 mm axial displacement of the optic portion along the eye's optical axis under a compression force suitable to effect a 1.0 mm in diameter compression of the intraocular lens.

Abstract: Haptics for an intraocular lens are attached to a flexible, deformable optic which is capable of being rolled for insertion through a small incision in the cornea. The outer periphery of the optic is circular. The haptics include a pair of stems extending radially on diametrically opposite sides of the optic. The stems are rectangular in cross section, having greater width than thickness to permit greater flexibility anterior to posterior than superior to inferior. A flexible support bar is mounted at the end of each stem, each bar being bisected by its stem respectively, and being shaped like an arc concentric with the optic. The support bar has greater depth than width, in order to permit greater flexibility proximally and distally than anteriorly and posteriorly. The haptics have a haptic arm mounted in cantilever fashion at the ends of each support bar, each of the arms terminating in a circular or lobular footplate.

Abstract: The invention concerns an intraocular implant comprising a substantially circular optical part (10) and two curved haptic loops (12, 14) each with a first connecting end (12a, 14a) at the periphery of the optical part and a free second end (12b, 14b) intended to come to rest on the internal wall of the eye, characterized in that the optical part (10) and the haptic loops (12, 14) are made of the same flexible material, the elastic modulus thereof being in a range between 0.25 MPa and 1 MPa, and in that the width of each loop decreases from its connecting end to its free end such that the ratio between the bending moment variation and the inertia moment variation at two separate points (P1, P2) of the loop is substantially constant.